Testing quaternion properness: generalized likelihood ratios and locally most powerful invariants

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URI: https://hdl.handle.net/10902/27745
ISSN: 2076-1465
ISSN: 2219-5491
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Autoría
Vía Rodríguez, JavierAutoridad Unican; Vielva Martínez, Luis AntonioAutoridad Unican
Fecha
2011
Derechos
© EURASIP. First published in the Proceedings of the 19th European Signal Processing Conference (EUSIPCO-2011) in 2011, published by EURASIP. IEEE is granted the nonexclusive, irrevocable, royalty-free worldwide rights to publish, sell and distribute the copyrighted work in any format or media without restriction.
Publicado en
19th European Signal Processing Conference (EUSIPCO), Barcelona, 2011, 2064-2068
Editorial
Institute of Electrical and Electronics Engineers, Inc.
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Resumen/Abstract
This paper considers the problem of determining whether a quaternion random vector is proper or not, which is an important problem because the structure of the optimal linear processing depends on the specific kind of properness. In particular, we focus on the Gaussian case and consider the two main kinds of quaternion properness, which yields three different binary hypothesis testing problems. The testing problems are solved by means of the generalized likelihood ratio tests (GLRTs) and the locally most powerful invariant tests (LMPITs), which can be derived even without requiring an explicit expression for the maximal invariant statistics. Some simulation examples illustrate the performance of the proposed tests, which allows us to conclude that, for moderate sample sizes, it is advisable to use the LMPITs.
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